Paludification and Forest Retreat in Northern Oceanic Environments

doi:10.1093/aob/mcf185

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Annals of Botany 91: 213-226, 2003
© 2003 Annals of Botany Company

Paludification and Forest Retreat in Northern Oceanic Environments

R. M. M. CRAWFORD^*^,1, C. E. JEFFREE² and W. G. REES³

¹ Plant Science Laboratory, Sir Harold Mitchell Building, St Andrews University, St Andrews KY1 6AJ, ² Edinburgh University Institute of Cell and Molecular Biology, Daniel Rutherford Building, King’s Buildings, Mayfield Road, Edinburgh EH9 3JH and ³ Scott Polar Research Institute, Lensfield Road, Cambridge CB2 1ER, UK

* For correspondence. E-mail rmmc{at}st-and.ac.uk

Received: 20 August 2001; Returned for revision: 14 November 2001; Accepted 19 April 2002

Examination of temperature variations over the past centuryfor Europe and the Arctic from northern Norway to Siberia suggeststhat variations in the North Atlantic Oscillation are associatedwith an increase in oceanicity in certain maritime regions.A southward depression of the treeline in favour of wet heaths,bogs and wetland tundra communities is also observed in northernoceanic environments. The physiological basis for this changein ecological succession from forest to bog is discussed inrelation to the long-term effects of flooding on tree survival.The heightened values currently detected in the North AtlanticOscillation Index, together with rising winter temperatures,and increased rainfall in many areas in northern Europe, presentsan increasing risk of paludification with adverse consequencesfor forest regeneration, particularly in areas with oceanicclimates. Climatic warming in oceanic areas may increase thearea covered by bogs and, contrary to general expectations,lead to a retreat rather than an advance in the northern limitof the boreal forest. High water-table levels are not automaticallydetrimental to forest survival as can be seen in swamp, bottomlandand mangrove forests. Consequently, the inhibitory effects offlooding on tree survival and regeneration in northern regionsshould not be uncritically accepted as merely due to high waterlevels. Evidence is discussed which suggests that physiologicaland ecological factors may interact to inhibit forest regenerationin habitats where there is a risk of prolonged winter-floodingcombined with warmer winters and cool moist summers.

Key words: Review, North Atlantic Oscillation, flooding, boreal forest, treeline, tundra, climate-change, bog, oceanicity.

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